TEXT 12^ FROM THE HISTORY OF ELECTR

TEXT 12

^ FROM THE HISTORY OF ELECTRICITY

There are two types of electricity, namely, electricity at rest or in a static condition and electricity in motion, that is, the electric current. Both of them are made up of electric charges, static charges being at rest, while electric current flows and does work. Thus, they differ in their ability to serve mankind as well as in their behaviour.

Static electricity was the only electrical phenomenon to be observed by man for a long time. At least 2,500 years ago the Greeks knew how to get electricity by rubbing substances. However, the electricity to be obtained by rubbing objects cannot be used to light lamps, to boil water, to run electric trains, and so on. It is usually very high in voltage and difficult to control, besides it discharges in no time.

As early as 1753, Franklin made an important contribution to the science of electricity. He was the first to prove that unlike charges are produced due to rubbing dissimilar objects. To show that the charges are unlike and opposite, he decided to call the charge on the rubber-negative and that on the glass-positive.

In this connection one might remember the Russian academician V. V. Petrov. He was the first to carry on experiments and observations on the electrification of metals by rubbing them one against another. As a result he was the first scientist in the world who solved that problem.

Volta’s discovery of electric current developed out of Galvani's experiments with the frog. Galvani observed that the legs of a dead frog jumped as a result of an electric charge. He tried his experiment several times and every time he obtained the same result. He thought that electricity was generated within the leg itself.

Volta began to carry on similar experiments and soon found that the electric source was not within the frog's leg but was the result of the contact of both dissimilar metals used during his observations. However, to carry on such-experiments was not an easy thing to do. He spent the next few years trying to invent a source of continuous current. To increase the effect obtained with one pair of metals, Volta increased the number of these pairs. Thus the voltaic pile consisted of a copper layer and a layer of zinc placed one above another with a layer of flannel moistened in salt water between them. A wire was connected to the first disc of copper and to the last disc of zinc.

The year 1800 is a date to be remembered: for the first time in the world's history a continuous current was generated.

Volta was born in Como, Italy, on February 18, 1745. For some years he was a teacher of physics in his home town. Later on he became professor of natural sciences at the University of Pavia. After his famous discovery he traveled in many countries, among them France, Germany and England. He was invited to Paris to deliver lectures on the newly discovered chemical source of continuous current. In 1819 he returned to Como where he spent the rest of his life. Volta died at the age of 82.

TEXT 12

^ FROM THE HISTORY OF ELECTRICITY

There are two types of electricity, namely, electricity at rest or in a static condition and electricity in motion, that is, the electric current. Both of them are made up of electric charges, static charges being at rest, while electric current flows and does work. Thus, they differ in their ability to serve mankind as well as in their behaviour.

Static electricity was the only electrical phenomenon to be observed by man for a long time. At least 2,500 years ago the Greeks knew how to get electricity by rubbing substances. However, the electricity to be obtained by rubbing objects cannot be used to light lamps, to boil water, to run electric trains, and so on. It is usually very high in voltage and difficult to control, besides it discharges in no time.

As early as 1753, Franklin made an important contribution to the science of electricity. He was the first to prove that unlike charges are produced due to rubbing dissimilar objects. To show that the charges are unlike and opposite, he decided to call the charge on the rubber-negative and that on the glass-positive.

In this connection one might remember the Russian academician V. V. Petrov. He was the first to carry on experiments and observations on the electrification of metals by rubbing them one against another. As a result he was the first scientist in the world who solved that problem.

Volta’s discovery of electric current developed out of Galvani's experiments with the frog. Galvani observed that the legs of a dead frog jumped as a result of an electric charge. He tried his experiment several times and every time he obtained the same result. He thought that electricity was generated within the leg itself.

Volta began to carry on similar experiments and soon found that the electric source was not within the frog's leg but was the result of the contact of both dissimilar metals used during his observations. However, to carry on such-experiments was not an easy thing to do. He spent the next few years trying to invent a source of continuous current. To increase the effect obtained with one pair of metals, Volta increased the number of these pairs. Thus the voltaic pile consisted of a copper layer and a layer of zinc placed one above another with a layer of flannel moistened in salt water between them. A wire was connected to the first disc of copper and to the last disc of zinc.

The year 1800 is a date to be remembered: for the first time in the world's history a continuous current was generated.

Volta was born in Como, Italy, on February 18, 1745. For some years he was a teacher of physics in his home town. Later on he became professor of natural sciences at the University of Pavia. After his famous discovery he traveled in many countries, among them France, Germany and England. He was invited to Paris to deliver lectures on the newly discovered chemical source of continuous current. In 1819 he returned to Como where he spent the rest of his life. Volta died at the age of 82.

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TEXT 12^ FROM THE HISTORY OF ELECTRICITYThere are two types of electricity, namely, electricity at rest or in a static condition and electricity in motion, that is, the electric current. Both of them are made up of electric charges, static charges being at rest, while electric current flows and does work. Thus, they differ in their ability to serve mankind as well as in their behaviour.Static electricity was the only electrical phenomenon to be observed by man for a long time. At least 2,500 years ago the Greeks knew how to get electricity by rubbing substances. However, the electricity to be obtained by rubbing objects cannot be used to light lamps, to boil water, to run electric trains, and so on. It is usually very high in voltage and difficult to control, besides it discharges in no time.As early as 1753, Franklin made an important contribution to the science of electricity. He was the first to prove that unlike charges are produced due to rubbing dissimilar objects. To show that the charges are unlike and opposite, he decided to call the charge on the rubber-negative and that on the glass-positive.In this connection one might remember the Russian academician V. V. Petrov. He was the first to carry on experiments and observations on the electrification of metals by rubbing them one against another. As a result he was the first scientist in the world who solved that problem.Volta’s discovery of electric current developed out of Galvani's experiments with the frog. Galvani observed that the legs of a dead frog jumped as a result of an electric charge. He tried his experiment several times and every time he obtained the same result. He thought that electricity was generated within the leg itself.Volta began to carry on similar experiments and soon found that the electric source was not within the frog's leg but was the result of the contact of both dissimilar metals used during his observations. However, to carry on such-experiments was not an easy thing to do. He spent the next few years trying to invent a source of continuous current. To increase the effect obtained with one pair of metals, Volta increased the number of these pairs. Thus the voltaic pile consisted of a copper layer and a layer of zinc placed one above another with a layer of flannel moistened in salt water between them. A wire was connected to the first disc of copper and to the last disc of zinc.The year 1800 is a date to be remembered: for the first time in the world's history a continuous current was generated.Вольта родился в Комо, Италия, 18 февраля 1745. За несколько лет он был учителем физики в своем родном городе. Позже он стал профессором естественных наук в университете Павии. После своего знаменитого открытия он путешествовал во многих странах, в том числе Франции, Германии и Англии. Он был приглашен в Париж, чтобы доставить лекции о недавно обнаруженных химических источника постоянного тока. В 1819 г. он вернулся в Комо, где он провел остаток своей жизни. Вольта умер в возрасте 82 лет.

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ТЕКСТ 12

^ ИЗ ИСТОРИИ ЭЛЕКТРОЭНЕРГИИ

Есть два типа электричества, а именно, электричество в покое или в статическом состоянии и электричества в движении, то есть электрический ток. Оба они состоят из электрических зарядов, статических зарядов , находящихся в состоянии покоя, в то время как электрический ток и делает работу. Таким образом, они различаются по своей способности служить человечеству, а также в их поведении.

Статическое электричество было только электрическое явление , которое наблюдается человеком в течение длительного времени. По крайней мере , 2500 лет назад греки знали , как получить электричество, потерев вещества. Тем не менее, электричество , чтобы получить путем трения объекты не могут быть использованы для ламп освещения, для кипячения воды, чтобы запустить электропоезда, и так далее. Это, как правило , очень высоки в напряжении и трудно контролировать, к тому же он разряжается в кратчайшие сроки.

Уже в 1753 году, Франклин внесла важный вклад в науку электричества. Он был первым , чтобы доказать , что в отличие от зарядов образуются в результате трения разнородных объектов. Чтобы показать , что заряды в отличие и напротив, он решил назвать заряд на резино-отрицательными и что на стекле-положительным.

В связи с этим можно было бы вспомнить русский академик В. В. Петров. Он был первым , чтобы продолжить эксперименты и наблюдения на электрификацию металлов, потерев их друг о друга. В результате он был первым ученым в мире , который решил эту проблему.

Открытие Вольта электрического тока , разработанный из опытов Гальвани с лягушкой. Гальвани заметил , что ноги мертвой лягушки прыгали в результате электрического заряда. Он попробовал его эксперимент несколько раз , и каждый раз , когда он получил тот же результат. Он думал , что электричество генерируется в самой ноге.

Вольта начал вести подобные эксперименты и вскоре обнаружил , что электрический источник не был в ноге лягушки , но была результатом контакта обоих разнородных металлов , используемых в ходе своих наблюдений. Тем не менее, для того чтобы продолжить таких-экспериментов не было легким делом. Он провел несколько лет , пытаясь изобрести источник постоянного тока. Чтобы усилить эффект , полученный с одной парой металлов, Вольта увеличилось количество этих пар. Таким образом, гальванический свая состоял из медного слоя , а слой цинка помещают один над другим слоем фланели , смоченным в соленой воде между ними. . Провод был подключен к первому диску меди и до последнего диска цинка

1800 год является датой следует помнить:. Впервые в мировой истории была генерируется постоянный ток

Вольта родился в Комо, Италия, 18 февраля 1745 г. в течение нескольких лет он был преподавателем физики в своем родном городе. Позже он стал профессором естественных наук в Университете Павии. После его знаменитого открытия он путешествовал во многих странах, в том числе Франции, Германии и Англии. Он был приглашен в Париж , чтобы читать лекции по вновь открывшимся химического источника постоянного тока. В 1819 году он вернулся в Комо , где он провел остаток своей жизни. Вольта умер в возрасте 82 лет .

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